Navigation system
A navigation system is a computing system that aids in navigation. Navigation systems may be entirely on board the vehicle or vessel that the system is controlling (for example, on the ship's bridge) or located elsewhere, making use of radio or other signal transmission to control the vehicle or vessel. In some cases, a combination of these methods is used.
Navigation systems may be capable of one or more of:
- containing maps, which may be displayed in human-readable format via text or in a graphical format
- determining a vehicle or vessel's location via sensors, maps, or information from external sources
- providing suggested directions to a human in charge of a vehicle or vessel via text or speech
- providing directions directly to an autonomous vehicle such as a robotic probe or guided missile
- providing information on nearby vehicles or vessels, or other hazards or obstacles
- providing information on traffic conditions and suggesting alternative directions
- simultaneous localization and mapping[1]
- acoustic positioning for underwater navigation[2]
Types of navigation systems
- Automotive navigation system
- Marine navigation systems using sonar[3]
- Satellite navigation system
- Global Positioning System, a group of satellites and computers that can provide information on any person, vessel, or vehicle's location via a GPS receiver
- GPS navigation device, a device that can receive GPS signals for the purpose of determining the device's location and possibly to suggest or give directions
- GLONASS, satellite navigation system run by Russia
- Galileo global navigation satellite system
- Global Positioning System, a group of satellites and computers that can provide information on any person, vessel, or vehicle's location via a GPS receiver
- Surgical navigation system, a system that determines the position of surgical instruments in relation to patient images such as CT or MRI scans.
- Inertial guidance system, a system which continuously determines the position, orientation, and velocity (direction and speed of movement) of a moving object without the need for external reference
- Robotic mapping, the methods and equipment by which an autonomous robot is able to construct (or use) a map or floor plan and to localize itself within it
- XNAV for deep space navigation
gollark: The other bad part, in my opinion, is that it's expensive to just plonk down a computer to control some small system.
gollark: They have nice bits, but if you just want a simple cheap thing for 3D printer control then CC can be better.
gollark: OC computersa are more expensive and annoying.
gollark: What's wrong with CC?
gollark: If you're doing something wildly inefficient somewhere, it's good to fix that, but generally trying to optimize variable positioning or something is a waste of time.
See also
- Positioning system
- Guidance, navigation and control
- Guidance system
References
- Dissanayake, MWM Gamini, et al. "A solution to the simultaneous localization and map building (SLAM) problem." IEEE Transactions on Robotics and Automation 17.3 (2001): 229-241.
- Paul D. Groves (1 April 2013). Principles of GNSS, Inertial, and Multisensor Integrated Navigation Systems, Second Edition. Artech House. ISBN 978-1-60807-005-3.
- Stephen F. Appleyard (23 January 2006). Marine Electronic Navigation. Routledge. ISBN 978-1-134-96309-6.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.